Finally
High Efficiency
Production
of Green Hydrogen
Net zero depends on it
E-TAC electrolyzer systems
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Accelerating the clean energy transition by producing the leading
next generation electrolyzer.

Our breakthrough 95% energy efficiency is the step change needed to make green hydrogen a reality

Explore what this means for your project

info

Assumptions:
Conventional electrolysis efficiency: 55 kWh/kg
E-TAC electrolysis efficiency: 42 kWh/kg

Size of Electrolyzer

100 MW

500 MW

1000 MW

Annual Operating Hours

1500 hrs

4500 hrs

8760 hrs

Hydrogen Sales Price

$1 / kg

$3 / kg

$5 / kg

Hydrogen Production Target

10 ktpa

50 ktpa

100 ktpa

Cost of Electricity

$10 / MWh

50 MWh

$100 / MWh

81

ktpa H2

Conventional Electrolysis
H2 Production

104

ktpa H2

E-TAC Electrolysis
H2 Production

493

Million USD

E-TAC Additional Profits
Over 20 Years

300

GWh / year

Conventional Electrolysis
Power Consumption

300

GWh / year

E-TAC Electrolysis
Power Consumption

260

Million USD

E-TAC Electricity Savings

Annual
Meet the E-TAC Electrolyzer
Next generation electrolysis for the lowest levelized cost of Hydrogen
H2Pro's E-TAC electrolyzer produces green hydrogen at 95% energy efficiency (compared to 60-70% of conventional systems). This breakthrough efficiency combined with E-TAC's reduced cost of materials, easily scalable membraneless design, and high compatibility with renewables will allow H2Pro systems to deliver green hydrogen at lowest cost.
Explore E-TAC
E-TAC Benefits
H2pro operates at the cutting edge of green hydrogen technology. Our two-phase, membraneless process offers a variety of benefits that make affordable green hydrogen a reality.
LOWEST OPEX
E-TAC reaches its unparalleled 95% efficiency (compared to 60-70% efficiency of alternative methods) by avoiding the inefficient electrochemical Oxygen Evolution Reaction of conventional electrolysis, replacing it with a Thermally Activated Chemical (TAC) reaction that doesn't consume power or heat. The system level efficiency amounts to only 42 kWh/kg H2 (i.e. 95% based on HHV), significantly reducing operating costs.
INTERMITTENCY COMPATIBLE
The system design allows a flexible operational scheme, making it compatible with a wide range of partial power loads. The inherently dynamic two-phase process is a perfect fit to the fluctuating nature of renewable energy. This means our systems work well with intermittent renewable energy sources, like solar and wind.
LOW CAPEX
In E-TAC, the proprietary anode is sourced from nickel - a cheap and readily available metal (whereas conventional electrolysis requires rare, costly metals like Platinum and Iridium to be used for the electrodes). Nickel supply chains are not expected to suffer any difficulties in the future, as opposed to other rare metals. Additionally, since hydrogen and oxygen generation are time-separated, an expensive membrane is not required. Eliminating the need for a membrane and using low-cost, mass produced electrodes greatly reduces capital expenditures.
HIGH PRESSURE
The two-phase process and membrane-free structure facilitates hydrogen production at 45 bar as a standard offering. The higher outlet pressure eliminates the need for subsequent compression in almost all applications.
SAFER CONFIGURATION
Hydrogen and oxygen are produced at different times, so they are never in danger of mixing. In conventional electrolysis only a thin membrane separates hydrogen and oxygen gas flows, which may form an explosive mixture.
NO HEAT REMOVAL REQUIRED
Our systems do not require dissipation of large amounts of low grade heat due to the 95% system efficiency. In conventional electrolysis, up to 30-40% of the electrical power in put is transformed to low grade heat, which cannot be used and thus need to be dissipated in air coolers or cooling towers. Avoiding this saves CAPEX, OPEX and plot space.
Made for Utility Scale
Tackling a problem as vast as climate change demands solutions of equal magnitude - that is why we're designing our systems for maximal impact in utility scale applications. Explore the journey our technology will take to be deployed in the largest green hydrogen projects.
View the product journey
Working with you
on your clean
energy transition
Renewable Energy Development
Green hydrogen serves as a clean, flexible storage medium for excess renewable energy, making it easier to transport and dispatch energy where and when needed.
Ammonia
Utilizing green hydrogen in ammonia production instead of gray hydrogen reduces greenhouse gas emissions, making fertilizers and other ammonia-based products more sustainable.
Refinery
Green hydrogen can replace gray hydrogen in oil refining processes, significantly reducing the carbon footprint of fuel and petrochemical products.
Methanol
The use of green hydrogen in methanol synthesis provides a pathway to eco-friendly fuels and industrial chemicals, reducing reliance on fossil fuels.
Steel
Carbon emissions in steel manufacturing can be slashed by using green hydrogen both to reduce iron ore and to achieve the high heats needed in the furnace.
Aviation
With such high energy density, green hydrogen and e-fuel derivates have the potential to serve as a zero-emission fuel for aircraft, offering a path toward decarbonizing the aviation sector.
Trucking
Green hydrogen fuel cells offer a long-range, fast-refueling option for heavy-duty trucks, reducing carbon emissions in the transportation sector.
Shipping
Using green hydrogen and derivates as a fuel for shipping can help to eliminate greenhouse gas emissions from one of the most challenging-to-decarbonize sectors.
Industrial and Chemical Manufacturing
Green hydrogen can serve as both an energy source and a feedstock for various industrial processes, offering a sustainable alternative to fossil-based inputs.
Partners & Investors
H2Pro is backed by leading investors and strategic partners who provide valuable insights from various sectors, ensuring we deeply understand our customers needs as they transition from fossil fuels to clean energy.
Recognition & Awards
Shell New Energy Challenge 2020
Winner - 1 out of 3000
Nature Energy
Top 1% of all research articles
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BloombergNEF Pioneer 2023
Award recipient
2023 ADIPEC Awards
Winner - Transformative Hydrogen Project
Proud to Be Part of
Why Green Hydrogen?
Green Hydrogen is the missing piece in the puzzle to put fossil fuels behind us
Green hydrogen, produced using renewable energy, offers a clean energy alternative to fossil fuels. An extremely versatile molecule, it can store and transport surplus renewable energy and decarbonize hard-to-electrify sectors like heavy industry and aviation. In the coming decades, expanded applications of green hydrogen are projected to drive demand to 500-600 million tonnes per year, representing a multi-trillion dollar market.
About Green Hydrogen
Who We Are
We're a multidisciplinary team working every day to make green hydrogen affordable at scale
Headquartered in Caesarea, Israel, H2Pro was founded in 2019 based on years of research at the Technion. Our diverse team includes top engineers and scientists, steered by seasoned leadership with a track record of transforming startups into global enterprises. From our various backgrounds, we are united by a deep commitment to create a more sustainable world together.
About Us
News
H2Pro to sell hydrogen to Japanese giant Sumitomo in deal estimated at $250 million
March 8, 2023
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After selling two software start-ups for over $1 billion, founder turns his focus to green hydrogen
Jan 25, 2022
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Gates-Backed Startup Joins Race to Make Green Hydrogen Cheaper
March 9, 2021
Read More
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Meet Us
Tuesday, 08 Mar 2022
Rotterdam
World Hydrogen Congress
Event details
Tuesday, 08 Mar 2022
Dubai
Dll & Cop 28
Event details
Tuesday, 08 Mar 2022
Brussels
European Hydrogen Week
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